In addition, an rsmY rsmZ double mutant shows enhanced biofilm formation compared with the wild type, suggesting that both genes jointly influence biofilm formation. Recently, a significant upregulation of the transcriptional activity stemming from intergenic regions was noted when B. cenocepacia J2315 biofilms were treated with oxidizing agents (Peeters et al., 2010). Treatment with H2O2 or NaOCl resulted in the upregulation of 37 and 56 intergenic regions, respectively, compared with untreated biofilms. Akt inhibitor Several of these intergenic regions were located in the close proximity of genes with a
similar expression pattern, suggesting cotranscription. However, other intergenic regions demonstrated markedly different expression patterns compared with their flanking genes and the basal expression levels of several of these regions were high. Several of these putative sRNAs were previously predicted using an in silico approach (Coenye et al., 2007), while others were found to be differentially expressed in B. cenocepacia grown in sputum (Drevinek et al., 2008)
or under soil-like conditions (Yoder-Himes et al., 2009). While the function of most of these putative sRNAs remained elusive, one had a marked similarity to the 6S RNA gene consensus structure, indicating its potential involvement in regulating gene expression. AZD0530 Traditionally, microarrays are used to identify changes in gene expression in high-throughput analyses, but there are several drawbacks associated with their use. Probably the most relevant drawback is that this approach is inherently biased (i.e. you can only measure what is known and hence represented on the array). This can be circumvented using high-throughput parallel sequencing (RNA sequencing). This novel, unbiased, approach will not only reveal changes in the expression level of protein-coding
genes, but will also lead to the discovery of changes in sRNA expression. Several sequencing technologies are currently available, including pyrosequencing (454 sequencing) and Illumina Fenbendazole ‘sequencing-by-synthesis’ (Mardis, 2008; Shendure & Hanlee, 2008; Petterson et al., 2009). These techniques present a vast improvement over microarray-based transcriptome analysis, but still rely on the generation of cDNA before sequencing, which may be the source of various types of errors. Ozsolak et al. (2009) recently described an entirely novel approach called ‘direct RNA sequencing’. Direct RNA sequencing is based on Helicos BioSciences’ ‘True Single Molecule Sequencing’ technology and allows the sequencing of femtomole quantities of RNA without the need for prior cDNA generation. This approach would allow the unbiased whole-transcriptome analysis of a low number of cells and would provide a snapshot of the response in various parts of the biofilms.